Palynology of Cenozoic successions of Kerala Basin: a review from the perspective of biostratigraphy and palaeoclimatic studies

Journal of Palaeosciences Pub Date : 2018-12-31 DOI:10.54991/jop.2018.51

P. Verma, A. Singh

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引用次数: 4

Abstract

The Kerala Basin is only onshore opportunity to study Cenozoic palaeoclimate and palaeoenvironment of southwest India encompassing Neogene global events such as Mid Miocene Climate Optimum (MMCO) and even older times of Palaeogene. The global warming during ~17–15 Ma (MMCO), enhanced annual surface temperature 3–4° C higher than the present, is equivalent to the warming predicted for the next century. Since the palaeogeographical and other general conditions have not been much changed from the Miocene Period, Neogene palaeoclimate of Kerala Basin can be considered as a possible analogue for future climate. Many workers have studied the Cenozoic sedimentary successions of surface and subsurface for stratigraphic classification of the rocks, but still, discrepancy persists in the chronostratigraphic relationship in sedimentary successions. The palynological investigations have also been limited mainly to palynofloral and palaeoecological inferences except a few in which palynostratigraphy, correlation and age have been attempted on the basis of spore–pollen only. Major three Cenozones namely, Triangulorites bellus and Crassoretitriletes vanraadshooveni (Eocene–Oligocene) and Malvacearumpollis bakonyensis (Miocene) have been established. The palynological studies done in the region broadly suggest warm and humid climate with heavy rainfall. However, the recent quantitative studies have highlighted the complexity of palaeoclimatic evolution in the tropics in terms of monsoon. A time–constrained quantitative palaeovegetation and palaeoclimate reconstructions on the basis of palynology is required for evaluation of response and changes in the tropical flora of northwestern India across the major climate events. For that, the biostratigraphy of finer resolution based on systematic and integrated multi–biotic proxy is needed to establish an age model for these sedimentary successions.

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喀拉拉邦盆地新生代地层孢粉学:从生物地层学和古气候研究的角度综述

喀拉拉邦盆地是研究印度西南部新生代古气候和古环境的唯一陆上机会，包括中新世中期气候优化(MMCO)和更早的古近纪全球事件。~17 ~ 15 Ma (MMCO)期间的全球变暖，比现在增加了3 ~ 4°C，相当于下个世纪的变暖预测。自从中新世以来，喀拉拉邦盆地的古地理和其他一般条件没有太大变化，新近纪的古气候可以被认为是未来气候的可能类比。许多学者研究了新生代地表和地下的沉积层序，对岩石进行地层划分，但沉积层序的年代地层关系仍然存在差异。孢粉学的研究也主要局限于孢粉花和古生态学的推断，只有少数孢粉地层、对比和年龄方面的研究仅基于孢粉。建立了始新世-渐新世的Triangulorites bellus、Crassoretitriletes vanraadshooveni和中新世的Malvacearumpollis bakonyensis三个主要新生代。在该地区进行的孢粉学研究普遍表明，气候温暖潮湿，雨量充沛。然而，最近的定量研究强调了热带地区季风古气候演变的复杂性。在孢粉学的基础上进行有时间限制的定量古植被和古气候重建，是评价印度西北部热带植物区系在主要气候事件中的响应和变化的必要条件。为此，需要基于系统综合的多生物代用物的精细分辨率生物地层学来建立这些沉积序列的时代模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Palaeosciences

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